Print Email Facebook Twitter Dynamic compressive mechanical response of a soft polymer material Title Dynamic compressive mechanical response of a soft polymer material Author Fan, J.T. Weerheijm, J. Sluys, L.J. Publication year 2015 Abstract The dynamic mechanical behaviour of a soft polymer material (Clear Flex 75) was studied using a split Hopkinson pressure bar (SHPB) apparatus. Mechanical properties have been determined at moderate to high strain rates. Real time deformation and fracture were recorded using a high-speed camera. Fracture micrographs were examined to explore the deformation and fracture mechanisms. Crazing and microcracking mechanisms were indicated to be decisive for the dynamic response and impact resistance of this soft polymer material. The stress-strain curves at various strain rates were derived to investigate the strain rate sensitivity. The yield stress shows a rate-dependent behaviour. Temperature rise was also measured by an infrared radiation (IR) camera to investigate the transformation of strain energy at different strain rates. It is of crucial significance to understand the deformation and fracture mechanisms, to study the rate-dependent behaviour as well as to develop a new impact-resistant framework for real engineering application. © 2015 Elsevier Ltd. Subject Observation, Weapon & Protection SystemsEBP - Explosions, Ballistics & ProtectionTS - Technical SciencesMaterialsDeformation and fractureMechanical propertiesSplit Hopkinson pressure barStrain rateTemperature riseBridge decksCamerasDeformationDynamic responseDynamicsFractureHigh speed camerasImpact resistanceInfrared radiationMechanical propertiesMechanismsPolymersStrainStrain energyStress-strain curvesYield stressDeformation and fractureDynamic mechanicalMechanical responseRate-dependent behaviourReal time deformationsSplit Hopkinson pressure barsStrain rate sensitivityTemperature riseStrain rate To reference this document use: http://resolver.tudelft.nl/uuid:25e3ab0d-d3dd-4a31-9629-e729168aa0a6 DOI https://doi.org/10.1016/j.matdes.2015.04.035 TNO identifier 525602 Publisher Elsevier Ltd ISSN 0261-3069 Source Materials and Design, 79, 73-85 Document type article Files To receive the publication files, please send an e-mail request to TNO Library.